Search Images Maps Play YouTube News Gmail Drive More »
Sign in
Screen reader users: click this link for accessible mode. Accessible mode has the same essential features but works better with your reader.

Patents

  1. Advanced Patent Search
Publication numberUS20010036271 A1
Publication typeApplication
Application numberUS 09/813,270
Publication date1 Nov 2001
Filing date20 Mar 2001
Priority date13 Sep 1999
Also published asWO2002076098A1
Publication number09813270, 813270, US 2001/0036271 A1, US 2001/036271 A1, US 20010036271 A1, US 20010036271A1, US 2001036271 A1, US 2001036271A1, US-A1-20010036271, US-A1-2001036271, US2001/0036271A1, US2001/036271A1, US20010036271 A1, US20010036271A1, US2001036271 A1, US2001036271A1
InventorsShoeb Javed
Original AssigneeJaved Shoeb M.
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
System and method for securely distributing digital content for short term use
US 20010036271 A1
Abstract
A system and method for use in a communication network that communicates with a plurality of digital content servers to provide selected digital data files, including video and audio files, for download to a subscriber device. A segmentation controller is provided for dividing the selected into segments. An encryption controller is provided for compressing and encrypting each of the segments with a selected one of a plurality of encryption keys. The segments are then transmitted at or above the average bandwidth of the communication network to a subscriber device. A copy of the decryption keys are transmitted to the subscriber device to enable playback of the selected file only with a current verification of the subscriber device.
Images(12)
Previous page
Next page
Claims(21)
What is claimed is:
1. A digital content server capable of transmitting a selected digital data file comprising at least one of a video file and an audio file to a subscriber device via a communication network, said digital content server comprising:
a memory for storing said selected digital data file and a plurality of encryption keys and a plurality of corresponding decryption keys;
a segmentation controller capable of dividing said selected digital data file into a plurality of segments;
an encryption controller capable of encrypting each of said plurality of segments with a selected one of said plurality of encryption keys; and
a transmission controller capable of determining an average bandwidth of said communication network over an N second period and transmitting said plurality of encrypted segments to said subscriber device in an N second period at an average data rate at least equal to said average bandwidth of said communication network and wherein said transmission controller is capable of transmitting said decryption keys to said subscriber device.
2. The digital content server as set forth in
claim 1
wherein said transmission controller is capable of transmitting said stored decryption keys to said subscriber device upon receipt of a verification signal.
3. The digital content server as set forth in
claim 2
wherein said transmission controller receives verification from said subscriber device.
4. The digital content server as set forth in
claim 1
wherein said segmentation controller is capable of adjusting the size of each one of said plurality of segments.
5. The digital content server as set forth in
claim 4
wherein said segmentation controller is capable of adjusting the size of each one of said plurality of segments according to parameters set by said transmission controller.
6. The digital content server as set forth in
claim 5
wherein the parameters set by said transmission controller are one of equal to the average bandwidth and exceed the average bandwidth of said communications network.
7. The digital content server as set forth in
claim 1
, wherein said decryption keys are sent to the subscriber device each time the selected file is played and said decryption keys are required only when a predetermined time period elapses between verification checks by said subscriber device.
8. The digital content server as set forth in
claim 1
wherein said encryption controller is capable of compressing each segment prior to encryption.
9. A communication network comprising:
a plurality of subscriber video players capable of receiving digital content files; and
a digital content server capable of transmitting a selected digital data file comprising at least one of a video file and an audio file to a subscriber device via a communication network, said digital content server comprising:
a memory for storing said selected digital data file and a plurality of encryption keys and a plurality of corresponding decryption keys;
a segmentation controller capable of dividing said selected digital data file into a plurality of segments;
an encryption controller capable of encrypting each of said plurality of segments with a selected one of said plurality of encryption keys; and
a transmission controller capable of determining an average bandwidth of said communication network over an N second period and transmitting said plurality of encrypted segments to said subscriber device in an N second period at an average data rate at least equal to said average bandwidth of said communication network and wherein said transmission controller is capable of transmitting said decryption keys to said subscriber device.
10. The communication network as set forth in
claim 9
wherein said transmission controller is capable of transmitting said stored decryption keys to said subscriber device upon receipt of a verification signal.
11. The communication network as set forth in
claim 9
wherein said transmission controller receives verification from said subscriber device.
12. The communication network as set forth in
claim 9
wherein said segmentation controller is capable of adjusting the size of each one of said plurality of segments.
13. The communication network as set forth in
claim 12
wherein said segmentation controller is capable of adjusting the size of each one of said plurality of segments according to parameters set by said transmission controller.
14. The communication network as set forth in
claim 13
wherein the parameters set by said transmission controller are one of equal to the average bandwidth and exceed the average bandwidth of said communications network.
15. The communication network as set forth in
claim 14
wherein said decryption keys are sent to the subscriber device each time the selected file is played and said decryption keys are required only when a predetermined time period elapses between verification checks by said subscriber device.
16. The communication network as set forth in
claim 15
wherein said encryption controller is capable of compressing each segment prior to encryption.
17. A method for transmitting a selected digital data file comprising at least one of a video file and an audio file to a subscriber device via a communications network, comprising the steps of:
dividing said digital data file into a plurality of segments, wherein said segments are adjustable in size;
encrypting each of said plurality of segments with a selected one of a plurality of encryption keys;
storing a plurality of decryption keys corresponding to said plurality of encryption keys; and
transmitting each said encrypted segment via said communications network to said subscriber device at an average data rate at least equal to an average bandwidth of said communications network.
18. The method as set forth in
claim 17
further comprising the step of transmitting said decryption keys to said subscriber device upon receipt of a verification signal.
19. The method as set forth in
claim 18
further comprising the step of adjusting the size of each one of said plurality of segments according to parameters set by said transmission controller wherein the parameters are one of, equal to the average bandwidth and exceed the average bandwidth of said communications network.
20. The method as set forth in
claim 19
further comprising the step of, responsive to a verification signal, transmitting a copy of said stored decryption keys to said subscriber device for decrypting each said encrypted segment.
21. The method as set forth in
claim 20
the steps of:
said subscriber device verifying a predetermined time period of use of said selected digital data file; and
transmitting said decryption keys to said subscriber device only if said time period is exceeded.
Description
CROSS-REFERENCE TO RELATED APPLICATIONS

[0001] The present invention is related to those disclosed in the following United States patent applications:

[0002] 1. Provisional Ser. No. 60/153,735, filed on Sep. 13, 1999, entitled “SYSTEMS FOR CONTROLLING INTERNET BASED DISTRIBUTION OF VIDEO AND OTHER DATA AND METHODS OF OPERATING THESE SYSTEMS”;

[0003] 2. Ser. No. 09/547,204, filed on Apr. 12, 2000, entitled “SYSTEMS AND METHODS FOR CONTROLLING INTERNET-BASED DISTRIBUTION OF VIDEO AND OTHER DATA”;

[0004] 3. Ser. No. 09/621,839, filed on Jul. 24, 2000, entitled “SYSTEM AND METHOD FOR EXTENDING RENTAL PERIOD OF DOWNLOADED VIDEO.”

[0005] 4. Ser. No. 09/656,553, filed on Sep. 6, 2000, entitled “SET-TOP BOX FOR INTERNET-BASED DISTRIBUTION OF VIDEO AND OTHER DATA.”

[0006] The above applications are commonly assigned to the assignee of the present invention. The disclosures of these related patent applications are hereby incorporated by reference into the present disclosure as if fully set forth herein.

TECHNICAL FIELD OF THE INVENTION

[0007] The present invention relates generally to systems and methods for securely distributing digital content, including video files, via a public communications network. More particularly, the present invention relates to systems and methods for delivering digital content while maintaining full control over the digital content from servers administered by the content owners.

BACKGROUND OF THE INVENTION

[0008] Every year millions of consumers rent videos from video rental stores such as BLOCKBUSTER®. Video stores provide videos on video cassette recorder (VCR) tapes and on digital versatile disks (DVDs). One of the attractive features of renting or buying a video is that it offers a person an opportunity to shop for a wide variety of movies, including recent studio releases and older movies that have been out of theaters for a long time. The attractive movie box covers displayed on shelves in a video store serve to remind shoppers of movies they may have missed when the movies were still in theaters. The box covers also introduce shoppers to movies with which they are unfamiliar.

[0009] Another attractive feature of renting or buying a video is that it provides a person with the convenience of watching a particular movie when the person wants to watch the movie. Thus, the consumer does not have to wait for the movie to be broadcast again in order to view it. Furthermore, if a person rents or buys a video, he or she does not have to watch commercials and does not have to watch the entire movie in one sitting, but may pause the video at his or her convenience. The conveniences of buying or renting a video are particularly important to a consumer whose infrequent television viewing habits do not just justify the cost of paying for premium movie channels, such as HBO® or SHOWTIME®.

[0010] Unfortunately there are numerous inconveniences associated with buying or renting videos from a video store. Every video rental involves the inconvenience of two trips to the video store: one trip to rent the video and one trip to return the video. If the consumer is not able to return the video to the video store by the return deadline, the consumer must pay a daily late fee that frequently is larger than the original daily rental fee. In fact, a significant portion of the revenues of many video stores come from late fees. Many consumers would prefer not to go out in bad weather to rent a video or, more importantly, to return a video.

[0011] Currently, videos may be downloaded from the Internet. Videos, like any other digital content on the Internet, are subject to copying by unauthorized parties. Generally, the preferred method for securely distributing digital content on networks today involves storing the encrypted video (digital content) on a server and then “streaming” that content to a subscriber device where it is decrypted and played back. Streaming means that the encrypted video is formed into packets and the packets are sent at high speed to a receiving device. There are various problems with this approach though. Streaming does not allow the content to be stored locally on the subscriber device. Every time the content is required to be played on the subscriber device it has to be downloaded from the server. This ties up precious network bandwidth and makes multiple use of content, such as video rental, almost impossible to achieve because of the high bandwidth demands placed on the network.

[0012] VCRs enable a user to exercise control over the video tape. For example, video playback machines allow the user to rewind, fast forward, pause, stop and exercise other control while playing the video. If the video is a digital file stored locally, the user is able to exercise the control, available in the VCR, over the digital file. In the streaming mode of operation, the subscriber devices have to go back to the server to exercise these controls. This causes the server to become a severe bottleneck and prevents the solution to scale to a very large number of devices.

[0013] Streaming requires a guaranteed constant bandwidth from the network since there is no local storage of the content. If there are temporary network glitches, the user may experience jerkiness or lost video frames. Most internet protocol (IP) networks (i.e., th Internet) deployed in the real world do not guarantee constant network bandwidth but do offer an average bandwidth of a certain size.

[0014] Because of the problems outlined above, a need exists in the art for a method of securely distributing digital content for short-term use over IP networks that allows the content to be stored locally on the subscriber devices.

SUMMARY OF THE INVENTION

[0015] The present invention provides advantageous embodiments of an Internet-based video rental, sales, and distribution network that allows subscribers to securely buy, rent, or otherwise acquire stored digital content (hereinafter sometimes referred to as video files or audio files), using a high-speed connection to the Internet. The present invention also provides a software controller for handling transactions to buy, rent or otherwise acquire the digital content over the Internet. However, the present invention is by no means limited to a software controller embodiment and it should be understood that the controller may be implemented in software, hardware, firmware, or some combination of these elements.

[0016] The purchased, rented, or otherwise acquired video and audio file or other data file is downloaded to a subscriber's video player and is then available for local viewing on the subscriber's television or other video display device for the duration of the rental period or indefinitely if the video content is purchased outright.

[0017] One advantageous embodiment of the proposed exemplary system for transmitting digital content over a communication network includes: 1) a memory for storing digital content, in the form of video files or audio files; 2) a segmentation controller capable of dividing the video and audio files into file segments; 3) an encryption controller to encrypt each file segment and storing the decryption keys in the memory and 4) a transmission controller that is capable of determining the average bandwidth of the network at the time of transmission and passing that information to the segmentation controller.

[0018] According to another embodiment of the present invention, the transmission controller is capable of transmitting the stored decryption keys to the subscriber device after receiving a verification of the subscriber device.

[0019] According to still another embodiment of the present invention, the encryption controller is capable of compressing each of the segments of the selected file prior to encryption.

[0020] According to yet another embodiment of the present invention, the segmentation controller is capable of adjusting the size of each of the segments of the selected file.

[0021] According to a further embodiment of the present invention, the segmentation controller may adjust the size of each segment according to network bandwidth parameters received from the transmission controller.

[0022] According to a still further embodiment of the present invention, the segmentation controller is capable of adjusting the size of each segment according to the average bandwidth of the communication network.

[0023] According to another embodiment of the present invention, the decrypting keys will be downloaded to the subscriber device upon verification. However, it is not necessary to download the decryption keys if the selected file is rewound or restarted within a predetermined time period.

[0024] Before undertaking the DETAILED DESCRIPTION OF THE INVENTION, it may be advantageous to set forth definitions of certain words and phrases used throughout this patent document: the terms “include” and “comprise” and their derivatives mean inclusion without limitation; the term “or” is inclusive, meaning and/or; the term “associable” and the phrases “associated with” and “associated therewith” and their derivatives thereof may mean to include, be included within, interconnect with, contain, be contained within, connect to or with, coupled to or with, be communicable with, cooperate with, interleave, juxtapose, be proximate to, be bound to or with, have, have a property of, or the like; and the term “controller” means any device, system or part thereof that controls at least one operation. Such a device may be implemented in hardware, firmware or software, or some combination of at least two of the same. It should be noted that the functionality associated with any particular controller may be centralized or distributed, whether locally or remotely. In particular, a controller may comprise one or more data processors, and associated input/output devices and memory, that execute one or more application programs and/or an operating system program. Definitions for certain words and phrases are provided throughout this patent document, those of ordinary skill in the art should understand that in many, if not most instances, such definitions apply to prior, as well as future uses of such defined words and phrases.

BRIEF DESCRIPTION OF THE DRAWINGS

[0025] For a more complete understanding of the present invention, and the advantages thereof, reference is now made to the following descriptions taken in conjunction with the accompanying drawings, wherein like numbers designate like objects, and in which:

[0026]FIG. 1 is a block diagram of an exemplary automated video distribution system according to one embodiment of the present invention;

[0027]FIG. 2 is a more detailed block diagram of selected portions of the exemplary automated video distribution system according to one embodiment of the present invention;

[0028]FIG. 3 is a message flow diagram illustrating an exemplary end-to-end video rental or sale transaction between an exemplary network video player (NVP), an exemplary video Internet service provider (VISP) network and an exemplary video point-of-presence (VPOP) network according to one embodiment of the present invention;

[0029]FIG. 4 is a message flow diagram illustrating an exemplary process of viewing a video already rented by the subscriber according to one embodiment of the present invention;

[0030]FIG. 5 is a message flow diagram illustrating an exemplary process of extending the rental duration for a video already downloaded to an exemplary NVP according to one embodiment of the present invention;

[0031]FIG. 6 illustrates an exemplary header that may be attached to video files downloaded to an NVP according to one embodiment of the present invention;

[0032]FIG. 7 illustrates an exemplary header that may be attached to video files stored on a VPOP network according to one embodiment of the present invention;

[0033]FIG. 8 illustrates an exemplary header that may be attached to records in the VPOP database for each copy of a video rented according to one embodiment of the present invention;

[0034]FIG. 9 illustrates an exemplary web page from which a subscriber using the exemplary network video player may select a video to rent or to purchase, according to one embodiment of the present invention;

[0035]FIG. 10 illustrates an exemplary web page from which a subscriber may learn additional details concerning a selected video, according to one embodiment of the present invention;

[0036]FIG. 11 is a more detailed block diagram of selected portions of the exemplary network video player according to one embodiment of the present invention;

[0037]FIG. 12 is a flow chart illustrating the operation of the exemplary network video player according to one embodiment of the present invention;

[0038]FIG. 13 illustrates in greater detail selected portions of a VPOP network a NVP that download video, audio and other digital data files in block bursts according to one embodiment of the present invention; and

[0039] FIGS. 14A-14B is a flow chart depicting a method for securely distributing digital content over a network according to one embodiment of the present invention.

DETAILED DESCRIPTION OF INVENTION

[0040]FIGS. 1 through 14, discussed below, and the various embodiments used to describe the principles of the present invention in this patent document are by way of illustration only and should not be construed in any way to limit the scope of the invention. Those skilled in the art will understand that the principles of the present invention may be implemented in any suitably arranged data network.

[0041]FIG. 1 is a block diagram of automated video distribution system 100 according to one embodiment of the present invention. Automated video distribution system 100 comprises a group of “M” subscriber sites (typically homes), including exemplary subscriber sites 110, 120, and 130, and a group of “N” video point-of-presence (VPOP) networks, including exemplary VPOP network 150, VPOP network 160, and VPOP network 170. Automated video distribution system 100 also comprises video Internet service provider (VISP) network 180. The subscriber sites, VPOP networks, and VISP network 180 communicate over common communication network 140, which is an Internet protocol (IP) based network, such as the Internet or one or more privately owned IP-based intranets.

[0042] Exemplary subscriber site 110 comprises television set 111 and exemplary network video player (NVP) 112 according to the principles of the present invention. Similarly, exemplary subscriber site 120 comprises television set 121 and exemplary network video player (NVP) 122 and exemplary subscriber site 130 comprises television set 131 and exemplary network video player (NVP) 132. As will be described below in greater detail, subscribers use NVP 112, NVP 122 and NVP 132 to access VISP network 180 in order to rent or purchase videos that are stored on one or more of VPOP network 150, VPOP network 160 and VPOP network 170. One or more of NVP 112, NVP 122 and NVP 132 may be implemented as a stand-alone device, such as a set top box or a personal computer, attached to a corresponding one of television sets 111, 121 and 131. Alternatively, one or more of NVP 112, NVP 122 and NVP 132 may be integrated into a corresponding one of television sets 111, 121 and 131.

[0043] Exemplary VPOP network 150 may comprise one or more workstations, collectively represented by workstation 151, and one or more video access servers, collectively represented by VPOP server 152. Similarly, exemplary VPOP network 160 may comprise one or more workstations, collectively represented by workstation 161, and one or more video access servers, collectively represented by video access server 162. Finally, exemplary VPOP network 170 may comprise one or more workstations, collectively represented by workstation 171, and one or more video access servers, collectively represented by video access server 172. As will be explained below in greater detail, each of VPOP networks 150, 160 and 170 allows subscribers previously authenticated and authorized by VISP network 180 to access and download video files.

[0044] Finally, VISP network 180 comprises one or more workstations, collectively represented by workstation 181, one or more servers, collectively represented by VISP server 182, and one or more database storage devices, collectively represented by VISP database 183. Among other things, VISP server 182 acts as a broker between a subscriber that wishes to download a selected video and a VPOP that has the selected video file.

[0045] It should be understood that the above-described embodiments of subscriber sites 110, 120, and 130, VPOP networks 150, 160, and 170, and VISP network 180 are illustrative only and that other architectures may be employed that do not depart from the spirit and scope of the invention. For example, in some embodiments of the present invention, one or more of NVP 112, NVP 122 and NVP 132, and VPOP networks 150, 160, and 170 may comprise a single desktop personal computer (PC) coupled to the Internet that provides a single subscriber with access to VISP network 180. In some embodiments of the present invention, one or more of NVP 112, NVP 122 and NVP 132 may be a laptop computer that is capable of accessing the Internet (i.e., common communication network 140) via a wireless modem. Similarly, one or more of VPOP networks 150, 160, and 170 may be connected wirelessly to communication network 140, such as by a satellite link.

[0046]FIG. 2 is a more detailed block diagram of selected portions of automated video distribution system 100 according to one embodiment of the present invention. In particular, FIG. 2 illustrates selected portions of subscriber site 110, VPOP network 150, VISP network 180 and common communication network 140. Network video player (NVP) 110 in subscriber site 110 comprises browser software application 210 (hereafter, simply “browser 210”), NVP controller 212, and NVP storage device 214 (typically a disk drive, which stores downloaded videos. VPOP network 150 comprises VPOP web site software application 230 (hereafter, simply “VPOP web site 230”), VPOP video access controller 232, VPOP accounting controller 234, and VPOP database 236. Finally, VISP network 180 comprises VISP web site software application 220 (hereafter, simply “VISP web site 220”), video distribution controller 222, VISP accounting controller 224, and VISP database 183.

[0047] The term “controller” as used with respect to the items in FIG. 2 is broadly defined and may mean any device, system or part thereof that controls at least one operation. Such a device may be implemented in hardware or software, or a combination of hardware and software. Furthermore, the functionality associated with any particular controller may be centralized or distributed, whether locally or remotely. A controller may comprise one or more data processors, and associated input/output devices and memory, that execute one or more application programs and/or an operating system program.

[0048] In particular, NVP controller 212 may comprise software applications executed by the central processing unit (CPU) in NVP 112, which may also execute browser 210. Likewise, VPOP video access controller 232 and VPOP accounting controller 234 may comprise software applications executed by the central processing unit (CPU) in VPOP server 152. VPOP server 152 may also execute VPOP web site 230. Finally, video distribution controller 222 VISP accounting controller 224 may comprise software applications executed by the central processing unit (CPU) in VISP server 182. VISP server 182 may also execute VISP web site 220.

[0049] When the subscriber of subscriber site 110 first rents or buys a video file via VISP network 180, NVP controller 212, which may work in cooperation with browser 210, gathers initial setup data from the subscriber, such as a personal name, credit card number, address information, and the like, and transfer this information to VISP accounting controller 224. If the subscriber at subscriber site 110 has previously used VISP network 180, a user name and password prompt may be used to quickly identify the subscriber and retrieve previously stored information from VISP database 183. Thus, NVP controller 212 and VISP accounting controller 224 may be used to gather details about particular subscribers that have previously used VISP network 180 and also may be used to gather information from new subscribers that are using VISP network 180 for the first time.

[0050] When a subscriber wishes to buy or rent a video, the subscriber browses VISP web site 220, which is capable of accessing VPOP web site 230 and other VPOP web sites in order to retrieve video files and related identification information stored on VPOP database 236. Video distribution controller 222 guides the subscriber through a sequence of web site menus from which the subscriber may select a video. Video distribution controller 222 transfers information related to the selected video to VPOP video access controller 232 that allows the subscriber to subsequently communicate with VPOP video access controller 232 in order to download the selected video via communication network 140. After the subscriber has selected a video to download, NVP controller 212 communicates with VPOP video access controller 232 to actually download the selected video file. Payment for the rented or purchased video and related invoicing information is then transferred from VISP accounting controller 224 to VPOP accounting controller 234.

[0051]FIG. 3 depicts message flow diagram 300, which illustrates an exemplary end-to-end video rental or sale transaction between NVP 112, VISP network 180 and VPOP network 150 according to one embodiment of the present invention. Initially, a subscriber using NVP 112 changes to the video services channel on television 111. The process of changing to the video services channel initiates an IP connection between NVP 112 and VISP network 180. At this point, VISP web site 220 at VISP network 180 appears on the screen of television 111. The subscriber uses the TV remote control, wireless keyboard or a pointing device, such as a mouse coupled to NVP 112, to browse WISP web site 220 to select the video content that he or she prefers to buy, rent or otherwise acquire. A variety of selection criteria may be used to select the video content. VISP network 180 then displays a list of VPOPs, including VPOP network 150, offering the video content selected by the subscriber. The subscriber then chooses a VPOP from which to buy or rent the video content. The VPOP selection criteria may be determined by geographical location (quicker downloads), cost of the video content, and any other differentiator, whether based on technological constraints, economic issue, or any other related resource allocation issues, that the VPOPs use to attract and retain customers. The subscriber also chooses whether the video content is to be rented or purchased, and if rented, the duration of the rental (process step 305).

[0052] Once the video content and VPOP selection is made, VISP network 180 authenticates the subscriber (possibly using subscriber account number, password, and the like) and collects payment information (credit card, add to cable bill, and the like) (process step 310). VISP network 180 then asks VPOP network 150 to reserve a copy of the video content (Lock Video Request) requested by the subscriber by sending VPOP network 150 the subscriber's unique NVP ID. The NVP ID is a code embedded in NVP 112. VISP network 180 also informs VPOP network 150 whether the video content is to be rented or purchased by the subscriber, and if rented, the rental duration (process step 315).

[0053] VPOP network 150 responds by reserving a copy of the video content rented or purchased by the subscriber and sends a positive acknowledgment (Lock Video Acknowledgment) to VISP network 180. VISP network 180 creates a billing record with the subscriber's account information and NVP ID for the video content rented or purchased (process step 320). VISP network 180 then sends a positive acknowledgment to NVP 112 to begin downloading the video content from VPOP network 150 (process step 330).

[0054] Next, NVP 112 connects to VPOP network 150 and provides information (Video URL) identifying the movie to be purchased or rented as well as the unique NVP ID of NVP 112 (process step 335). VPOP network 150 verifies that a record exists for the NVP ID and the video content requested by NVP 112. VPOP network 150 then downloads a file containing the requested video content to NVP 112 (process steps 340, 345 and 350). After the download is complete, VPOP network 150 informs VISP network 180 that the download is complete, providing VISP network 180 with the subscriber's NVP ID as well as identifying the video content rented or purchased. VISP network 180 then completes and closes the billing record created for the subscriber using NVP 112 (process step 355).

[0055]FIG. 4 depicts message flow diagram 400, which illustrates an exemplary process of viewing a video already rented by the subscriber according to one embodiment of the present invention. Initially, the subscriber, using the remote control of television 111 or a pointing device coupled to NVP 112, selects and plays the rented video. NVP 112 connects to VPOP network 150 from which the video was rented and requests VPOP network 150 to verify that the rental duration for the video is still current. NVP 112 provides VPOP network 150 the video URL as well as the unique NVP ID of NVP 112 (process step 405). VPOP network 150 locates the rental record for the NVP ID and video URL sent by NVP 112. VPOP network 150 compares the time-stamp on the rental record with the current time to see if the video is within the rental duration paid for by the subscriber. If the video is still within the rental duration paid for by the subscriber, VPOP network 150 sends an acknowledgment to NVP 112 that the video may be viewed by the subscriber (process step 410). NVP 112 then plays the video on television 111.

[0056]FIG. 5 depicts message flow diagram 500, which illustrates an exemplary process of extending the rental duration for a video already downloaded to NVP 112 according to one embodiment of the present invention. Initially, the subscriber, using the remote control of television 111 or a pointing device coupled to NVP 112, selects and plays the rented video. NVP 112 connects to VPOP network 150 from which the video was rented and requests VPOP network 150 to verify that the rental duration for the video is still current. NVP 112 provides VPOP network 150 the video URL as well as the NVP ID of NVP 112 (process step 505). VPOP network 150 locates the rental record for the NVP ID and video URL sent by NVP 112. VPOP network 150 compares the time-stamp on the rental record with the current time to see if the video is within the rental duration paid for by the subscriber. VPOP network 150 determines that the rental period on the video requested by NVP 112 has expired and sends a negative acknowledgment back to NVP 112 (process step 510).

[0057] Next, NVP 112 prompts the subscriber to extend the rental duration and the subscriber elects to extend the rental duration for the video to be viewed. NVP 112 connects to VISP network 180 and sends a rental request providing VISP network 180 with the unique NVP ID of NVP 112, the video URL and VPOP network 150 information (process step 515). VISP network 180 then authenticates the subscriber and collects payment information (process step 520).

[0058] Once payment is collected, VISP network 180 requests VPOP network 150 to reserve a copy of the video content requested by the subscriber by sending VPOP network 150 the unique NVP ID of NVP 112. VISP network 180 also informs VPOP network 150 of the rental duration (process step 525). VPOP network 150 responds by reserving a copy of the video content rented by the subscriber and sends a positive acknowledgment to VISP network 180. In response, VISP network 180 creates a billing record with the subscriber's account information and the NVP ID of NVP 112 for the video content rented (process step 530).

[0059] VISP network 180 sends a positive acknowledgment to NVP 112 to begin downloading the video content from VPOP network 150 (process step 535). NVP 112 connects to VPOP network 150 and requests that the rental duration for the video be extended, providing VPOP network 150 with the corresponding video URL and the NVP ID of NVP 112 (process step 540). VPOP network 150 verifies that a record exists for the NVP ID of NVP 112 for the video content requested by NVP 112. VPOP network 150 then downloads a new header to NVP 112 with the rental extension information (process step 545). VPOP network 150 informs VISP network 180 that the download is complete, providing VISP network 180 with the NVP ID of NVP 112 as well as the video content rented. VISP network 180 then completes and closes the billing record for the subscriber (process step 550).

[0060] To carry out the exemplary transactions described above, each of the network components implementing the video network may carry out various processes that are described below.

[0061]FIG. 6 illustrates exemplary header 600, which may be attached to video files downloaded to NVP 112 according to one embodiment of the present invention. Exemplary header 600 comprises seven data fields. Field 605 in header 600 contains the URL of the VPOP network (e.g., VPOP network 150) that provides the downloaded video file. The VPOP URL in field 605 allows NVP 112 to determine the source of the downloaded video file. The VPOP URL may subsequently used to validate whether the video is still within the rented duration, as well as to extend the rental duration if requested by the subscriber.

[0062] Field 610 in header 600 contains the URL of the selected video. The VIDEO URL allows NVP 112 to uniquely identify the video to VPOP network 150 as well as VISP network 180 during the rental, purchase, viewing, and extension transactions. Field 615 in header 600 contains the Compression Type. The Compression Type data tells NVP 112 what algorithm was used to compress the video content. This information is used by NVP 112 to decompress the stored video for viewing.

[0063] Field 620 in header 600 contains a data value indicating whether the video was rented or purchased by the subscriber. The Owned/Rented data value is used by NVP 112 to determine if it is necessary to check the rental period validity before playing the video on television 111. Field 625 in header 600 contains a time stamp of the last time the video was played. The Time Last Checked data value is used by NVP 112 to determine if it is necessary to check with VPOP network 150 for rental period validity before playing the video on television 111.

[0064] Field 630 in header 600 contains a checksum value for all of the data in header 600. The Header Checksum value is used by NVP 112 to determine whether the header downloaded from VPOP network 150 during video rental transactions was received without errors. Field 635 in header 600 contains a checksum value for all of the video file, excluding header 600. The Video Checksum value is used by NVP 112 to determine whether the video file downloaded from VPOP network 150 was received without errors.

[0065]FIG. 7 illustrates exemplary header 700, which may be attached to video files stored on VPOP network 150 according to one embodiment of the present invention. Exemplary header 700 comprises five data fields. Field 705 in header 700 contains the compression type. The Compression Type data identifies the algorithm used to compress the video content. This information is used to decode the video for viewing on NVP 112. Field 710 in header 700 contains the number of copies of the video owned by VPOP network 150. The Number of Copies Owned value determines how many copies of the video may be rented or sold by VPOP network 150.

[0066] Field 715 in header 700 contains the number of copies of the video currently rented from VPOP network 150. The Number of Copies Rented value keeps a real-time record of the number of each video file that have been rented to subscribers. Field 720 in header 700 contains a checksum of the actual video content. The Video Checksum value is used during the video download process to ensure that all of the video content is correctly downloaded from VPOP network 150 to NVP 112. Field 725 in header 700 contains a pointer to an array of records, one for each copy of the video rented from VPOP network 150. The records array keeps track of which NVP rented each video and when the video was rented.

[0067]FIG. 8 illustrates exemplary header 800, which may be attached to records in VPOP database 236 for each copy of a video rented according to one embodiment of the present invention. Field 805 in header 800 contains the NVP ID of NVP 112, which belongs to the subscriber that rented the video. Field 810 in header 800 contains the time at which the video was rented by NVP 112. Field 815 in header 800 contains a status value indicating whether or not the video has been downloaded by NVP 112 or if a download is still pending.

[0068] VPOP network 150 can receive inputs from NVP 112, VISP network 180 or database updates from the local system administrator. Database updates to VPOP network 150 happen when new videos are added to or deleted from VPOP network 150 or if additional copies of an existing video are purchased. The addition of new videos requires VPOP network 150 to send the database updates to VISP network 180 to ensure that VISP network 180 has current information on all VPOPs carrying the newly added video. The database updates for adding more copies of an existing video are local changes and do not have to be sent to VISP network 180.

[0069] When VPOP network 150 receives a lock video request from VISP network 180, it checks the Number of Copies Rented field in the video's header. If the Number of Copies Rented is equal to the Number of Copies Owned field, then VPOP network 150 sends a Lock Video Request deny message back to VISP network 180. Otherwise, VPOP network 150 checks whether the Lock Video Request is a rental or purchase transaction. If it is a purchase transaction, VPOP network 150 decrements the Number of Copies Owned field, sets the Download Status field in that copy's header to “Purchase Download Pending” and sends a Lock Video Acknowledge message to VISP network 180. If the Lock Video Request from VISP network 180 is a rental transaction, VPOP network 150 increments the Number of Copies Rented field in the video's header, sets the Download Status field in that copy's header to “Rental Download Pending” and sends a Lock Acknowledge message to VISP network 180. In both rental and purchase transactions, VPOP network 150 updates the NVP ID field in that video copy's header with the NVP ID of NVP 112 requesting the transaction.

[0070] When VPOP network 150 receives a download or extension request from NVP 112, VPOP network 150 looks through the array of headers for the video requested to see if the NVP ID exists. If the NVP ID does not exist, VPOP network 150 sends an error message back to NVP 112. If the NVP ID exists and it is an extension request, VPOP network 150 sends a Download Complete message to VISP network 180 (along with NVP ID and VIDEO URL information) and sends a duration extended message to NVP 112. If the NVP ID exists and it is a download request, VPOP network 150 creates a new header for the video to be downloaded to NVP 112. VPOP network 150 fills in the VPOP URL, the VIDEO URL, the Compression Type value, the Owned/Rented value (based on whether the Download Status indicates purchase or rental pending), the Header Checksum value, and the Video Checksum value. The header is downloaded to NVP 112 first, followed by the actual video file.

[0071] If the download is successful, VPOP network 150 sends a Download Complete message to VISP network 180, providing the NVP ID, the VPOP URL, and the VIDEO URL. If the download is unsuccessful, VPOP network 150 checks the Download Status field in that video copy's header to see if the video was a rental or a purchase. If the video was a rental, VPOP network 150 decrements the Number of Copies Rented field in the video header. If it was a purchase transaction, VPOP network 150 increments the Number of Copies Owned field in the video header (the above two steps restore the original number of copies owned or rented and cancel out the pending transaction). VPOP network 150 also clears the NVP ID and Download Status fields from that video copy's header. Finally, VPOP network 150 sends a Download Failed message to VISP network 180 and provides the NVP ID and the VIDEO URL.

[0072] As introduced herein above, those skilled in the art will readily see that the video or other data content may suitably be downloaded in a variety of ways. According to one advantageous embodiment, for the purposes of downloading, the video file may be divided into a plurality of associated data segments. Each data segment is self contained and may be downloaded independently of the others and then used to reconstruct the video content at subscriber site 110. Advantageously, the data segments are sequenced numerically using file name extensions. Segmenting or otherwise breaking up the video files allows NVP 112 to start playing the movie after the first segment is downloaded. The other data segments continue to download while the first segment (and subsequent segments thereafter) continue to play. According to a related advantageous embodiment, individual segment size may be determined based on the slowest download speed to ensure that the next segment will be downloaded before the previous segment finishes playing on NVP 112.

[0073] According to yet another related embodiment, the download process may be interrupted because of a failure of VPOP network 150, thereby enabling NVP 112 to choose to continue downloading the segment content from another VPOP network 150 starting from the segment that was interrupted rather than starting the entire download process over again. This enables the subscriber to recover from errors without incurring the prolonged delay that would occur if the video file download were restarted from the beginning.

[0074] Besides browsing VISP network 180 web site and requesting video content to be rented or purchased, the subscriber can also select and view videos already downloaded to NVP 112. To select a locally stored video, the subscriber chooses the select option on the remote control or wireless keyboard. At this point, a list of all locally stored videos is displayed on the subscriber's television screen. The subscriber navigates through the list of videos and chooses a video to be viewed. Once a video is selected, the subscriber can apply typical VCR commands like play, fast forward, rewind, pause and stop. The rewind, fast forward, pause and stop commands are completely local (do not require any transactions with VPOP network 150 or VISP network 180). When one of these commands is chosen, NVP 112 performs the appropriate action on the locally stored video.

[0075] When the subscriber elects to play locally stored video that the subscriber has selected, NVP 112 checks the Owned/Rented field in the video's header to determine if the video is owned by the subscriber or rented. If the video is owned, then it is played on the subscriber's TV screen. If the video is rented, NVP 112 checks the Time Last Checked value in the video's header to determine the last time the video was played. If the Time Last Checked is within two hours of the current NVP time, then the video is immediately played on the subscriber's TV screen. If the time elapsed since the Time Last Checked value is greater than two hours, then NVP 112 uses the VPOP URL value in the video header to connect to VPOP network 150 from which the video is rented. NVP 112 also provides VPOP network 150 with the NVP ID of NVP 112, as well as the VIDEO URL value stored in the video's header.

[0076] NVP 112 waits for VPOP network 150 to determine whether the video is within the video rental duration. If the video is still within the rented duration, NVP 112 updates the Time Last Checked value to the current time and plays the video on the subscriber's TV screen. If the video's rental duration has expired NVP 112 prompts the subscriber to extend the video's rental duration. If the subscriber does not elect to extend the rental duration, NVP 112 deletes the video from local storage. If the subscriber elects to extend the rental duration, NVP 112 connects to VISP network 180 and provides it with the VPOP URL for VPOP network 150, the VIDEO URL, and the NVP ID information. VISP network 180 then displays the user authentication screen on the subscriber's TV screen. The subscriber follows the authentication and payment processes described previously. When authentication is done, NVP 112 connects to VPOP network 150 and provides it with the VIDEO URL and NVP ID and requests to extend the video rental. After extension confirmation is received from VPOP network 150, NVP 112 updates the Time Last Checked value to the current time and plays the video on television 111.

[0077]FIG. 9 illustrates exemplary web page 900 from which a subscriber using NVP 112 may select a video to rent or to purchase, according to one embodiment of the present invention. Web page 900 contains listings for three videos, “Rocky,” “First Blood,” and “Titanic,” which the subscriber may rent using NVP 112. Four selectable icons are associated with the “Rocky” video, including review icon 901, download icon 902, trailer icon 903, and video cover icon 904. Similarly, four selectable icons are associated with the “First Blood” video, including review icon 911, download icon 912, trailer icon 913, and video cover icon 914. Finally, four selectable icons are associated with the “Titanic” video, including review icon 921, download icon 922, trailer icon 923, and video cover icon 924. Selecting any one of the review icons transfers the subscriber to web page 1000, explained below in FIG. 10, from which the subscriber may read a review of the corresponding movie. By selecting any one of the download icons, the subscriber may begin the process of downloading the selected video to NVP 112. By selecting any one of the trailer icons, the subscriber may view a brief video clip from the corresponding video file. Selecting any one of the video cover icons transfers the subscriber to web page 1000. In an advantageous embodiment of the present invention, video cover icons 904, 914, and 924 are smaller sized graphic images (typically in JPEG or GIF format) of the box cover of the corresponding video.

[0078]FIG. 10 illustrates exemplary web page 1000 from which a subscriber using NVP 112 may learn additional details concerning a selected video, according to one embodiment of the present invention. The subscriber using NVP 112 enters web page 1000 by selecting, for example, one of video cover buttons 904, 914, or 924 in web page 900. Web page 1000 comprises video cover icon 1001, movie review text 1002, selectable rent/buy icon 1003, and selectable trailer icon 1004.

[0079] Movie review text 1002 comprises a scrollable window containing text reviews and/or a synopsis of the corresponding video. Selecting trailer icon 1004 allows a subscriber to view a brief video clip from the corresponding video file. Selecting rent/buy icon 1003 leads to subsequent web pages that begin the process of downloading the selected video to NVP 112. In an advantageous embodiment of the present invention, video cover icon 1001 is a larger sized graphic image (typically in JPEG or GIF format) of the box cover of the corresponding video.

[0080]FIG. 11 is a more detailed block diagram of selected portions of exemplary network video player 112 according to one embodiment of the present invention. Network video player (NVP) 112 comprises IR sensor 1105, NVP controller 212, browser 210, NVP storage device 214, MPEG2 decoder/NTSC encoder 1110, and video processor 1120. In the embodiment shown, NVP 112 is implemented as a set-top box that receives television signals from a cable service provider for display of television set 111. However, unlike a conventional cable box, NVP 112 is also capable of browsing the Internet and downloading and renting a video file or other data file. Advantageously, NVP 112 may access the Internet via the cable connection, such as by using a high-speed cable modem service. Alternatively, NVP 112 may use a separate connection, such as a digital subscriber line (DSL), to access the Internet. In other embodiments of the present invention, NVP 112 may receive external television signals from an antenna, rather than from a cable service provider.

[0081]FIG. 12 depicts flow chart 1200, which illustrates the operation of the exemplary network video player 112 according to one embodiment of the present invention. NVP controller 212 directs the overall operation of network video player 112, including View mode, Play mode and Browse mode. In View mode, NVP controller 212 causes the incoming television signal from the cable service provider to be demodulated and processed by video processor 1120 and transmitted to television set 111, without storing or retrieving from NVP storage device 214 (process step 1205). Video processor 1120, which may be, for example, a TriMedia (TM) 1100 media processor, contains radio frequency (RF) front-end circuitry for receiving incoming television signals from the cable service provider, tuning to a user-selected channel, and converting the selected RF signal to a baseband television signal (e.g., super video signal) suitable for display on television set 111. Video processor 1120 also is capable of receiving a conventional NTSC signal from MPEG2 decoder/NTSC encoder 1110 during Play mode and transmitting baseband television signal (e.g., super video signal) to television set 111.

[0082] In Browse mode, NVP controller 212 launches browser 210 and directs video processor 1120 to receive its input video signal from browser 210. Once launched, browser 210 receives user commands from, for example, a remote control or an infrared-capable wireless keyboard or mouse. Browser 210 accesses web pages from VISP network 180 and VPOP networks 150, 160, and 170, as explained above, and causes video processor 1120 to display the web pages on television set 111. Video previews, such as MPEG2 video files, received by browser 210 may be transferred to MPEG2 decoder/NTSC encoder 1110 for display in a window on television set 111. Eventually, the user may rent and download a video or other data file. The downloaded video file is stored in NVP storage device 214 for subsequent playback on television set 111 (process step 1210). In Play mode, NVP controller 212 directs NVP storage device 214 to stream a downloaded, rented video file to MPEG2 decoder/NTSC encoder 1110, which converts the MPEG2 data from NVP storage device 214 to, for example, a super video (S-Video) signal that video processor 1120 transmits to television set 111 (process step 1215).

[0083] The MPEG2 standard was chosen for MPEG2 encoder 220 and MPEG2 decoder/NTSC encoder 1110 only for the purposes of explaining the invention. In alternate embodiments of the present invention, the MPEG encoder and decoder may comply with the MPEG-1, MPEG-2, MPEG-4 or MPEG-7 standards.

[0084] For the purposes of this application and the claims that follow, NVP storage device 214 is defined to include any mass storage device that is both readable and writable, including conventional magnetic disk drives, magnetic tapes for a video cassette recorder (VCR) or video tape recorder (VTR), and optical disk drives for read/write digital versatile disks (DVD-RW), rewritable CD-ROMs, and the like. In fact, NVP storage device 214 need not be “fixed” in the conventional sense that it is permanently embedded in network video player 112. Rather, NVP storage device 214 includes any mass storage device that is dedicated to network video player 112 for the purpose of storing recorded video programs. Thus, NVP storage device 214 may include an attached peripheral drive or removable disk drives (whether embedded or attached), such as a juke box device that holds read/write DVDs or re-writable CD-ROMs. Furthermore, in an advantageous embodiment of the present invention, NVP storage device 214 may include external mass storage devices that network video player 112 may access and control via a network connection (e.g., Internet protocol (IP) connection), including, for example, a disk drive in the user's home personal computer (PC) or a disk drive on a server at the user's Internet service provider (ISP).

[0085]FIG. 13 illustrates in greater detail selected portions of VPOP network 150 and NVP 112 that download video, audio and other digital data files in block bursts according to one embodiment of the present invention. VPOP network 150 comprises VPOP database 236, segmentation controller 1330, encryption controller 1340, and transmission controller 1350. VPOP database 236 stores exemplary video files 1301-1303, exemplary audio files 1311 and 1312, and decryption keys 1320. In the illustrated embodiment, video files 1301-1303 are arbitrarily labeled VIDEO 1, VIDEO 2, and VIDEO 3, respectively, and audio files 1311 and 1312 are arbitrarily labeled AUDIO 1 and AUDIO 2, respectively.

[0086] NVP 112 comprises NVP storage device 214, decryption controller 1355, and video-audio processor 1360. NVP storage device 214 stores segments 1315-1317, which are arbitrarily labeled SEGMENT 1, SEGMENT 2, and SEGMENT 3, respectively. Video-audio processor 1360 is coupled to television set 111. If NVP 112 is downloading video files from VPOP network 150, video-audio processor 1360 plays the video track on the screen of television set 111 and plays the accompanying audio track on the speakers of television set 111. If NVP 112 is downloading audio files from VPOP network 150, video-audio processor 1360 may play the audio file on the speakers of television set 111. In alternate embodiments, video-audio processor 1360 may play an audio file directly on stand-alone speakers not connected to a television or other device.

[0087] VPOP network 150 may receive a request from NVP 112 for a specific digital data file. In this illustration, VPOP network 150 receives a request from NVP 112 for a specific file, video file 1301. Video file 1301 is a complete video movie and is digitized at VPOP network 150 using standard commercially available digitizing schemes. Prior to transmitting video file 1301 to NVP 112, VPOP segmentation controller 1330 divides digitized video file 1301 into segments prior to downloading. Each of the segments represents a viewing interval (e.g., each file comprises a predetermined portion of the video) and all of the files together are a complete video.

[0088] The length of the viewing interval depends on the size of a segment. The viewing interval can be adjusted to the network (here, the Internet) over which segments 1315-1317 are intended to be distributed. Adjusting the length of the viewing interval comprises adjusting the size of the segments into which video file 1301 is divided. The average available bandwidth on network 140 determines the size of the segments (i.e., more average available bandwidth allows smaller segments).

[0089] The size of each of segments 1315-1317 can be adjusted by segmentation controller 1330 to provide longer or shorter viewing intervals. A longer viewing interval compensates for network problems by providing a longer time window within which a subsequent segment may be downloaded before the viewer finishes viewing the current segment. At the same time, if the first segment downloaded to NVP 112 is relatively large, the viewer must wait a longer period before viewing the first video segment than with for a relatively small segment.

[0090] After video file 1301 is divided into segments by segmentation controller 1330, each segment is then individually compressed by segmentation controller 1330 using standard video and audio compression codecs or other data reduction techniques for non-video or audio data. After the compression process is complete, each compressed video segment is passed to encryption controller 1340 and individually encrypted using a different encryption and decryption key pair for each segment. The use of separate encryption and decryption key pairs for each video file provides much greater protection of the distributed content. If one encryption and decryption key pair is compromised or if someone is able to break the encryption of one video segment, then only one segment is compromised.

[0091] Segments 1315-1317 are transmitted to NVP 112 and stored in NVP storage device 214. If NVP has been verified as authorized to receive and play video file 1301, decryption keys are sent to NVP 112 and are used by decryption controller 1355 to decrypt segments 1315-1317. As segments 1315-1317 are being loaded into memory, the first segment (i.e., segment 1315) is retrieved by video-audio controller 1360 from NVP storage device 214. After verification of NVP 112, the first decryption key (not shown) is used to decrypt segment 1315 and decrypted segment 1315 is played by video-audio controller on television set 111. Succeeding segments 1316-1317 are played on TV 111 after decryption controller 1355 applies a decryption key corresponding to each segment, respectively. Video file 1301 is viewed by a subscriber on TV 111 as NVP 112 plays each segment, in order, and stores segments 1315-1317 in memory for later replay. Further, during the rental period, segments 1315-1317 that are stored in NVP storage device 214 are a complete video and may be viewed as any other video during the rental period.

[0092]FIGS. 14A and 14B are a flow chart depicting method 1400 for securely distributing digital data files over a network, according to one embodiment of the present invention. The rental process for renting digital data files in the form of video files, audio files and other data files has been described earlier in FIG. 3. The method for distributing a digital data file over a network, in this illustration a video file, begins with a selection of a video file stored in VPOP database 236 on VPOP network 150. After a video file is selected by a subscriber, VISP network 180 checks the status of the subscriber and collects payment information (process step 1405). VISP network 180 then prompts VPOP network 150 to begin the download process of the selected video. Segmentation controller 232 divides the entire video into individual video segments 1315-1317 whose size depends on the determination by transmission controller 1350 of the available bandwidth of the network (process step 1410). Each video segment is then compressed (process step 1415) and each video segment is encrypted using encryption and decryption key pairs. The decryption keys for each video segment are stored in VPOP database 236 on VPOP network 150 (process step 1420). VPOP transmission controller 232 then begins to download the video segments to the requesting subscriber device (process step 1425).

[0093] After the first video segment is received by the requesting subscriber device (NVP 112), the subscriber is prompted by NVP 112 on TV 111 display screen with a statement such as, “The video is ready for viewing. Do you want to play it?”, or the like (decision step 1430). If the subscriber declines to play the video, the process returns to decision step 1430 and repeats the statement until the subscriber answers “yes” (process step 1440).

[0094] Referring now to FIG. 14B, after receiving a positive response, NVP 112 then makes a secure connection to VPOP network 150 and sends a request to VPOP network 150 to verify that the video segments that are being received into local storage at NVP 112 have been legitimately rented by NVP 112 and that the rental period has not expired (decision step 1445). The subscriber may view a previously downloaded video file that is stored in its entirety in NVP storage device 214 if the rental period has not yet expired or will not expire during the requested rental period. If the rental period has expired or will expire during the new viewing period, depending on VISP network 180 operator and the agreement with VPOP network 150, VISP network 180 prompts the subscriber to approve charges to the subscriber's account or credit card, or cancels the procedure (process step 1455).

[0095] VPOP network 150 then determines whether the rental period has been verified (decision step 1460). If the rental period has expired, the subscriber is prompted to rent another video (process step 1465). If a successful verification is signaled (rental period has not expired), VPOP network 150 sends the appropriate decryption keys to NVP 112 for all the video segments of the video file that was rented (process step 1470). NVP 112 then uses the first decryption key for the first video segment and begins to play the video by beginning playback of the first video segment. The remaining decryption keys are applied to each respective video file just prior to playback (process step 1475).

[0096] During the initial download of video file 1301, as the first video file and successive files are being played, the remaining video files are being downloaded in the background. As long as the download of each subsequent video file is faster than the viewing time of an immediately prior video, the user does not perceive any video degradation. The transmission controller determines the average bandwidth of the communications network and transfers the segments at least as fast as the available bandwidth allows. Since the length of each video file can be optimized for the current conditions of the communication network, a subsequent video segment should arrive prior to the completion of the currently playing segment. Only an average bandwidth requirement is placed on the network and not a constant bandwidth requirement as that required in the data streaming mode. Downstream bandwidth may vary (be faster or slower) at any instant in time as long as the variance falls within each video segment viewing period (which could be several minutes). Therefore, an average bandwidth, slightly larger than that at which the video segment is encoded, is achieved.

[0097] Once all video segments of the video file are downloaded, the video file is fully available from NVP storage device 214. All video control functions including rewind, forward, pause, stop, etc. can then be performed locally on the video file. Every time the Play button is pressed NVP 112 determines the last time that NVP 112 checked with VPOP network 150 for verification. If that period is greater than a predetermined time (i.e., two hours) NVP 112 re-checks with VPOP network 150 for rental period verification to make sure that the video can be played by NVP 112.

[0098] The decryption keys are not stored in local storage of NVP 112. Whenever a stored video is to be played NVP 112 validates the rental period of the video with VPOP network 150 and then obtains a copy of the decryption keys from VPOP database for the digital content (video segments) from VPOP network 150. VPOP network 150 maintains full control of the video file, through the decryption keys, even though the video may be distributed to many client devices (NVPs) and stored in the local storage of these devices. The fact that the video does not have to be downloaded on every rewind operation saves shared network bandwidth for use by other devices on the network providing a much more scalable solution. Only the decryption keys are downloaded each time the video is played (and only if it is a new play operation as opposed to a rewind and replay). For rewind and then play the VPOP network 150 is not checked unless the last time NVP 112 checked with VPOP network 150 exceeds a certain, predetermined period of time.

[0099] Although the present invention has been described in detail, those skilled in the art should understand that they can make various changes, substitutions and alterations herein without departing from the spirit and scope of the invention in its broadest form.

Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US6996537 *13 Aug 20017 Feb 2006Qualcomm IncorporatedSystem and method for providing subscribed applications on wireless devices over a wireless network
US7024381 *14 May 20034 Apr 2006Netflix, Inc.Approach for renting items to customers
US7039189 *17 Mar 20002 May 2006International Business Machines CorporationStream continuity enforcement
US7080400 *6 Aug 200118 Jul 2006Navar Murgesh SSystem and method for distributed storage and presentation of multimedia in a cable network environment
US7146434 *15 May 20025 Dec 2006Hewlett-Packard Development Company, L.P.Method for downloading data via the internet to a browser enabled computer
US7293066 *21 Jan 20046 Nov 2007Cisco Technology, Inc.Methods and apparatus supporting access to stored data
US731042218 Nov 200518 Dec 2007Sony CorporationPartial encryption and PID mapping
US7336787 *2 Jan 200226 Feb 2008Sony CorporationCritical packet partial encryption
US7567670 *28 May 200428 Jul 2009Intel CorporationVerification information for digital video signal
US76304961 Sep 20038 Dec 2009Tekla CorporationArrangement and method for adapting mobile field device
US768502828 May 200423 Mar 2010Gross John NMethod of testing inventory management/shipping systems
US7747853 *31 Mar 200429 Jun 2010Sony CorporationIP delivery of secure digital content
US7751632 *15 Feb 20056 Jul 2010Panasonic CorporationIntelligent, dynamic, long-term digital surveilance media storage system
US797441131 Jan 20085 Jul 2011International Business Machines CorporationMethod for protecting audio content
US797885331 Jan 200812 Jul 2011International Business Machines CorporationSystem and computer program product for protecting audio content
US8091112 *28 Feb 20013 Jan 2012Keen Personal Technologies, Inc.System and a method for transmitting and receiving a program with improved efficiency
US816529314 Feb 200724 Apr 2012Irdeto Access B.V.Method and system providing scrambled content
US816650814 Jan 200824 Apr 2012Apple Inc.Content rental system
US8190874 *21 Dec 200529 May 2012Nec CorporationData transmission system and data transmission method
US8209729 *20 Apr 200626 Jun 2012At&T Intellectual Property I, LpRules-based content management
US824995522 Mar 201021 Aug 2012John Nicholas GrossMethod of testing item availability and delivery performance of an e-commerce site
US8250614 *31 Mar 200621 Aug 2012United Video Properties, Inc.Systems and methods for providing an on-demand media portal and grid guide
US8321574 *13 Jun 200827 Nov 2012Sony CorporationApparatus, system and method for secure information dissemination
US834667310 May 20041 Jan 2013Blockbuster L.L.C.System and method for provisioning audiovisual works
US843362228 May 200430 Apr 2013Media Queue, LlcMethod of controlling electronic commerce queue
US8583558 *20 Apr 200912 Nov 2013Yahoo! Inc.On-line software rental
US86066846 Nov 200110 Dec 2013Aol Inc.Digital content distribution and subscription system
US860671710 Jul 200610 Dec 2013Media Queue, LlcPlayable media delivery capacity exchange method
US861231110 Jul 200617 Dec 2013Media Queue, LlcHybrid distribution method for playable media
US862708114 Jul 20067 Jan 2014Conax AsMultimedia data protection
US20080250104 *13 Jun 20089 Oct 2008Sony CorporationApparatus, system and method for secure information dissemination
US20090169003 *22 May 20082 Jul 2009Samsung Electronics Co., Ltd.Broadcast processing apparatus and method thereof
US20090178093 *30 Sep 20089 Jul 2009Hiro MitsujiContent Rental System
US20090210317 *20 Apr 200920 Aug 2009Yahoo! Inc.On-line software rental
US20090320083 *22 Jun 200924 Dec 2009Nabil DajaniPersonal Media Viewer
US20110107365 *23 Dec 20105 May 2011Zhongming ChenSystem and method for managing program assets
CN100438620C6 Aug 200326 Nov 2008梅迪亚利夫公司Device for scrambling MPEG-4-type audio-visual and multimedia content
EP1821538A115 Feb 200622 Aug 2007Irdeto Access B.V.Method and system providing scrambled content
EP1845682A1 *13 Apr 200617 Oct 2007Flowing Content S.A.Method and system for content distribution
EP2178298A1 *4 Mar 200821 Apr 2010Hitachi Consumer Electronics Co. Ltd.Receiver and receiving method
EP2403244A1 *1 Jul 20104 Jan 2012Thomson LicensingSecure encryption method for electronic content distribution
WO2002045316A2 *6 Nov 20016 Jun 2002Full Audio CorpDigital content distribution and subscription system
WO2003030559A2 *13 Aug 200210 Apr 2003Qualcomm IncSystem and method for providing subscribed applications on wireless devices over a wireless network
WO2004012454A1 *18 Jul 20035 Feb 2004Thomson Licensing SaMethod of distributing encrypted portions of an audiovisual programme
WO2004015996A2 *6 Aug 200319 Feb 2004Daniel LecomteDevice for scrambling mpeg-4-type audio-visual and multimedia content
WO2004021639A1 *1 Sep 200311 Mar 2004Janne LiimatainenArrangement and method for adapting mobile field device
WO2004040856A2 *21 Oct 200313 May 2004Siemens AgMethod for saving the same sequence of messages in several data sinks
WO2007118789A1 *3 Apr 200725 Oct 2007Flowing Content S AMethod and system for content distribution
WO2008132877A14 Mar 20086 Nov 2008Hitachi LtdReceiver and receiving method
WO2009088919A131 Dec 200816 Jul 2009Apple IncContent rental system
Classifications
U.S. Classification380/217, 380/241, 348/E07.073, 348/E07.072
International ClassificationH04N7/173, H04N7/16
Cooperative ClassificationH04N21/44204, H04N21/4331, H04N7/17327, H04N21/2543, H04N21/25816, H04N21/4334, H04N21/42684, H04N21/6581, H04N21/2347, H04N21/63345, H04N21/8456, H04N21/47202, H04N7/17336, H04N21/6125, H04N21/2743
European ClassificationH04N21/2543, H04N21/472D, H04N21/433C, H04N21/258C1, H04N21/2743, H04N21/426N, H04N21/442C, H04N21/61D3, H04N21/658R, H04N21/433R, H04N21/6334K, H04N21/845T, H04N21/2347, H04N7/173B4, H04N7/173B3
Legal Events
DateCodeEventDescription
17 Jun 2002ASAssignment
Owner name: VESTA BROADBAND SERVICES, INC., A TEXAS CORPORATIO
Free format text: CHANGE OF NAME;ASSIGNOR:VIDEOSDOTCOM, INC., A TEXAS CORPORATION;REEL/FRAME:013003/0746
Effective date: 20001215
20 Mar 2001ASAssignment
Owner name: VESTA BROADBAND SEVICES, INC., TEXAS
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:JAVED, SHOEB M.;REEL/FRAME:011665/0196
Effective date: 20010314